Geometric constraints improve inference of sparsely observed stochastic dynamics
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Publication:6431713
arXiv2304.00423MaRDI QIDQ6431713
Author name not available (Why is that?)
Publication date: 1 April 2023
Abstract: The dynamics of systems of many degrees of freedom evolving on multiple scales are often modeled in terms of stochastic differential equations. Usually the structural form of these equations is unknown and the only manifestation of the system's dynamics are observations at discrete points in time. Despite their widespread use, accurately inferring these systems from sparse-in-time observations remains challenging. Conventional inference methods either focus on the temporal structure of observations, neglecting the geometry of the system's invariant density, or use geometric approximations of the invariant density, which are limited to conservative driving forces. To address these limitations, here, we introduce a novel approach that reconciles these two perspectives. We propose a path augmentation scheme that employs data-driven control to account for the geometry of the invariant system's density. Non-parametric inference on the augmented paths, enables efficient identification of the underlying deterministic forces of systems observed at low sampling rates.
Has companion code repository: https://github.com/dimitra-maoutsa/geometric-path-augmentation-for-sdes
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